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ABSTRACT: There is a need for biomarkers in accessible matrices, such as blood, for the diagnosis of neurodegenerative diseases. The aim of this study was to measure the serum levels of brain-type fatty acid-binding protein (FABP) and heart-type FABP in patients with dementia-involving diseases.
Brain- and heart-type FABP were measured in serum samples from patients with either Alzheimer's disease (AD) (n = 31), Parkinson's disease (PD, n = 43), or other cognitive disorders (OCD, n = 42) and in 52 healthy controls. The localization of brain- and heart-type FABP was determined in brain sections by immunohistochemistry.
Brain-type FABP levels were elevated in serum of 29%, 35%, and 24% of the patients with AD, PD, and OCD, respectively, and in 2% of the healthy donors. Heart-type FABP serum levels were not different amongst the patient groups. Brain-type and heart-type FABP expression was observed in reactive astrocytes in brain sections of patients with AD.
In contrast to heart-type FABP, serum levels of brain-type FABP are elevated in a significant proportion of patients with various neurodegenerative diseases and can therefore have importance for defining subgroups of these patients.
European Journal of Neurology 12/2010; 18(6):865-71. · 3.69 Impact Factor
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ABSTRACT: The aims of this study were to compare the structure of bladders from a transgenic mouse model of Alzheimer's disease with age matched control animals and to explore the idea that any structural differences might be related to functional bladder changes associated with the condition.
Two groups of mice were used. Transgenic animals in which the murine Amyloid Precursor Protein (APP) gene has been partly replaced by the human APP including both the Swedish and London mutations and that overexpress a mutant of the human Presenilin 1 gene (PS1M146L) driven by the PDGF promoter. The transgenic mice (App(SL)/PS1(M146L)) aged 24+/-3 months were used. The second group was an age matched control group of C57 black mice. The bladders from each group were isolated, fixed in 4% paraformaldehyde and prepared for immunohistochemistry. Antibodies to the vesicular acetylcholine transporter (VAChT) and neuronal nitric oxide synthase (nNOS) were used to identify neural structures.
Cholinergic nerves (VAChT(+)) were observed in the inner and outer muscle bundles of App(SL)/PS1(M146L) and control mice. No major differences were noted in the distribution of these fibres. In contrast, there was a distinct difference in the innervation of the sub-urothelial layer. In App1(SL)/PS1(M146L) mice there were numerous VAChT and nNOS positive fibres in sharp contrast to the paucity of similar nerves in control animals. VAChT and nNOS did not appear to co-localise in the same nerve fibres within the lamina propria. Pairs of nerve fibres, nNOS(+) and VAChT(+), were observed to be intertwined and run in close proximity. A particularly unusual feature of the App(SL)/PS1(M146L) mouse bladder was the presence of neurones within the bladder wall. These nerve cell bodies were seen in all App(SL)/PS1(M146L) mouse bladders. The neurones could be found singly or in small ganglion like groups of cells and were located in all layers of the bladder wall (sub-urothelium, in the lamina propria adjacent to the inner muscle and within the inner muscle and outer muscle layers). No nerve cells or small ganglia were noted in any of the control bladders studied.
There are structural differences in the bladders of App(SL)/PS1(M146L) mice compared to control animals. These differences are associated with sub-urothelial nerves which, because of their location, are likely to be sensory fibres. This may lead to a changed sensory processing from the App(SL)/PS1(M146L) bladders. The physiological role of the intra-mural neurones and ganglia is not known. It is speculated that they may be associated with peripheral motor/sensory mechanisms linked to the generation and modulation of sensation.
Journal of chemical neuroanatomy 12/2009; 39(3):204-10. · 1.75 Impact Factor
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ABSTRACT: Localized phasic contractions in the bladder wall (autonomous activity) have been hypothesized to be an integral part of a motor/sensory system contributing to bladder sensation. The sites responsible for generating this activity, the mechanisms involved in its propagation and modulation remain unknown. This phasic motor activity is modulated by exogenous prostaglandins. Therefore, analysis of the sites of prostaglandin production and action within the bladder wall may shed light on the mechanisms of generation and modulation of this phasic activity. In this paper we report the localization of immuno-reactivity indicative of the expression of cyclo-oxygenase enzyme type I (COX I-IR) within the bladder wall. Basically, three types of COX I-IR cell were identified: epithelial cells in the basal and intermediate layers of the urothelium, complex vimentin-positive and COX I-IR cells in the lamina propria and vimentin-negative COX I-IR cells in the lamina propria and on the surface of the inner muscle bundles. These vimentin-negative/COX I-IR cells appear to be in close apposition to a continuous network of vimentin-positive cells, which extends from the lamina propria into the inner muscle layers and subsequently into the outer muscle layers. However, the interstitial cells in this region might form a distinctly different sub-type. First, the interstitial cells in this region differ from those in the inner layer by their responsiveness to NO with a rise in cGMP. Two subtypes have been identified: cells on the surface of the muscle bundles and within the muscle bundles. Second, COX I-IR cells are not associated with the interstitial cells in the outer layers. The physiological significance for these apparent differences in the interstitial cell network is not clear. However, such differences are likely to reflect differences in the processes involved in their activation, modulation and control.
Journal of Cellular and Molecular Medicine 09/2008; 13(9B):3069-81. · 4.13 Impact Factor
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ABSTRACT: Previously, using brain slices, we reported NO-mediated cGMP synthesis in all cholinergic fibers in the rat neocortex. In order to answer the question whether this property of cholinergic fibers was present before or developed after birth, we investigated properties of NO-responsiveness of cultured cholinergic forebrain neurons. Basal forebrain neurons of E16 fetal rat were cultured. Under the conditions chosen and after one day of culturing, all cells had attained a cholinergic phenotype using choline acetyltransferase or the vesicular acetylcholine transporter molecule as markers. Between 95-99% of the cells also expressed neuronal NOS. In the presence of 1 mM IBMX, a non-selective phosphodiesterase (PDE) inhibitor, 10 microM of the NO donor diethylamine-NONOate (DEANO) increased cGMP synthesis in 80% of the cells. cGMP levels in the cultured forebrain neurons were also increased when cells were stimulated with DEANO in the presence of the selective PDE inhibitors BAY 60-7550 (PDE2), sildenafil (PDE5), or the mixed type inhibitor papaverine (PDE2,5,10). Subpopulations of cells from the basal forebrain expressed mRNA for PDE2, PDE5, and PDE9. Atropine increased cGMP levels in an NO-dependent manner in a small population of cultured forebrain cells in the presence of IBMX. In conclusion, cultured cholinergic basal forebrain neurons present a heterogeneous cell population in the magnitude of their response to NO. NO-responsiveness of the cultured cholinergic neurons is already detectable after one day of culturing and indicates that NO-sensitivity of the cholinergic neurons of the rat basal forebrain is present well before birth.
Brain Research 07/2008; 1217:25-36. · 2.73 Impact Factor
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ABSTRACT: Interstitial cells (ICs) play a role in regulating normal bladder activity. This study explores the possibility that the sub-urothelial and muscle networks of NO/cGMP-responsive ICs are altered in animals with surgically induced outflow obstruction. In sham-operated animals, the urothelium comprised NO-stimulated cGMP-positive (cGMP(+)) umbrella cells, an intermediate layer and a basal layer that stained for nNOS. cGMP(+) sub-urothelial interstitial cells (su-ICs) were found below the urothelium. cGMP(+) cells were also associated with the outer muscle layers: on the serosal surface, on the surface of the muscle bundles and within the muscle bundles. Several differences were noted in tissues from obstructed animals: (1) the number of cGMP(+) umbrella cells and intensity of staining was reduced; (2) the intermediate layer of the urothelium consisted of multiple cell layers; (3) the su-IC layer was increased, with cells dispersed being throughout the lamina propria; (4) cGMP(+) cells were found within the inner muscle layer forming nodes between the muscle bundles; (5) the number of cells forming the muscle coat (serosa) was increased; (6) an extensive network of cGMP(+) cells penetrated the muscle bundles; (7) cGMP(+) cells surrounded the muscle bundles and nodes of ICs were apparent, these nodes being associated with nerve fibres; (8) nerves were found in the lamina propria but rarely associated with the urothelium. Thus, changes occur in the networks of ICs following bladder outflow obstruction. These changes must have functional consequences, some of which are discussed.
Cell and Tissue Research 11/2007; 330(1):147-60. · 3.11 Impact Factor
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ABSTRACT: We examined the localization of natriuretic peptide responsive, cyclic guanosine monophosphate producing cells in the guinea pig bladder.
The bladder was removed from male guinea pigs sacrificed by cervical dislocation. The lateral wall of the bladder was cut into strips 2 mm thick. The tissue pieces were incubated in the presence of human atrial natriuretic peptide, rat brain natriuretic peptide and C-type natriuretic peptide or the nitric oxide donor DEANO (diethylamine NONOate or 1,1-diethyl-2-hydroxy-2-nitrosohydrazine) (Sigma). Cyclic guanosine monophosphate immunoreactivity was localized using an antibody against formaldehyde fixed cyclic guanosine monophosphate.
Atrial natriuretic peptide and brain natriuretic peptide stimulated cyclic guanosine monophosphate synthesis in suburothelial interstitial cells, whereas C-type natriuretic peptide was not effective. In contrast, DEANO stimulated cyclic guanosine monophosphate synthesis in urothelial umbrella cells, suburothelial interstitial cells, muscle interstitial cells and neurons. The effect of atrial natriuretic peptide and brain natriuretic peptide was not inhibited by ODQ (1H-[1, 2, 4]oxadiazolo[4-3a]quinoxalin-1-one), an inhibitor of nitric oxide responsive soluble guanylyl cyclase.
To our knowledge our findings show for the first time a localized effect of atrial natriuretic peptide and brain natriuretic peptide to the suburothelial cells of the guinea pig bladder. These cells express the soluble guanylyl cyclase and particulate guanylyl cyclase-A isoforms. The specific physiological role of these cells is not known but it was suggested that they may be involved in the generation or modulation of sensation. The results imply a role for natriuretic peptide-cyclic guanosine monophosphate signaling in the processing of sensory information in the bladder.
The Journal of Urology 04/2007; 177(3):1191-4. · 3.75 Impact Factor
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ABSTRACT: To investigate which phosphodiesterase (PDE) is involved in regulating cyclic 3'5' guanosine monophosphate breakdown in retinal pigment epithelium (RPE) cells.
cGMP content in the cultured RPE cells (D407 cell line) was evaluated by immunocytochemistry in the presence of non-selective or isoform-selective PDE inhibitors in combination with the particulate guanylyl cyclase stimulator atrial natriuretic peptide (ANP) or the soluble guanylyl cyclase stimulator sodium nitroprusside (SNP). mRNA expression of PDE2, PDE5 and PDE9 was studied in cultured human RPE cells and rat RPE cell layers using non-radioactive in situ hybridisation.
In the absence of PDE inhibitors, cGMP levels in cultured RPE cells are very low. cGMP accumulation was readily detected in cultured human RPE cells after incubation with Bay60-7550 as a selective PDE2 inhibitor, sildenafil as a selective PDE5 inhibitor or Sch51866 as a selective PDE9 inhibitor. In the presence of PDE inhibition, cGMP content increased markedly after stimulation of the particulate guanylyl cyclase. mRNA of PDE2,PDE5 and PDE9 was detected in all cultured human RPE cells and also in rat RPE cell layers.
PDE2, PDE5 and PDE9 have a role in cGMP metabolism in RPE cells.
British Journal of Ophthalmology 04/2007; 91(3):379-84. · 2.90 Impact Factor
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ABSTRACT: We have examined structures that may operate by using nitric oxide (NO)/soluble guanylyl cyclase (sGC) signalling in the lamina propria of the guinea pig bladder. Cells on the luminal surface of the urothelium and sub-urothelial interstitial cells (SU-ICs) responded to NO with a rise in cGMP. The distribution of these different cells varied between the base, lateral wall and dome. In the base, two regions were identified: areas with sparse surface urothelial cells and areas with a complete covering. A layer of cGMP-positive (cGMP(+)) cells (up to 10 cells deep) was found in the base. cGMP(+)/SU-ICs were also observed in the lateral wall. However, here, the cGMP(+) cells were confined to a layer of only 1-2 cells immediately below the basal urothelial layer (basal cGMP(+)/SU-ICs). Below these cGMP(+)/SU-ICs lay cells that had a similar structure but that showed little cGMP accumulation (deep cGMP(-)/SU-ICs). Both basal and deep SU-ICs expressed the beta1 subunit of sGC and the cGMP-dependent protein kinase I (cGKI), suggesting that the deep SU-ICs can sense NO and signal via cGMP. By using BAY 41-2272, a sensor of endogenous NO production, NO-dependent cGMP synthesis was observed primarily in the basal SU-ICs. A third population of cGKI(+)/cGMP(-) cells was seen to lie immediately below the basal urothelial layer. These cells ("necklace" cells) were less numerous than SU-ICs and extended linking processes suggesting a network. The specific functions of these structures are not known but they may contribute to the emerging multiple roles of the urothelium associated with the generation of bladder sensation.
Cell and Tissue Research 09/2006; 325(2):325-32. · 3.11 Impact Factor
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ABSTRACT: The afferent output from the bladder is important for triggering micturition. This study identifies different types of afferent nerve and explores the connections of their collateral fibres on intramural ganglia and potential ganglionic targets. The experiments were performed on tissues from male guinea-pigs (n=16). Fibres positive for choline acetyl transferase (ChAT(+)) were found to originate close to the urothelium, to transit the sub-urothelial interstitial cell layer and to pass into the lamina propria. A different population of fibres, immunopositive for calcitonin gene-related peptide (CGRP), capsaicin receptors or neurofilament protein (NF), were seen to intertwine with the ChAT(+) fibres in the lamina propria. The ChAT(+) fibres did not express NF. Ganglia with ChAT(+) and NF(+) neurones were found in the lamina propria and muscle. ChAT(+) fibres, with pronounced terminal varicosities, were present on the nerve cell bodies. Two types were noted: NF(+) terminals and those with little or no NF (NF(-)) suggesting that their origins were the ChAT(+) afferent collaterals and the adjacent ganglia. Fibres containing CGRP or substance P were seen on the ganglionic cells. alpha1B adrenergic receptors were also found on the neurones indicative of adrenergic synapses. Thus, the ganglia had multiple inputs. Different types of ChAT(+) nerves were seen in the muscle: NF(+) and NF(-). The ChAT(+)/NF(+) nerves may represent a ganglionic output to the muscle. This complex neuronal network may therefore represent the elements generating and modulating bladder sensations. The role of such a scheme in bladder pathology and the therapeutic sites of action of anticholinergic and sympathomimetic drugs are discussed.
Cell and Tissue Research 08/2006; 325(1):33-45. · 3.11 Impact Factor
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ABSTRACT: Natriuretic peptides (NP) and the corresponding receptors are present in the rodent spinal cord. We have studied the structures which respond to atrial natriuretic peptide, brain natriuretic peptide, or C-type natriuretic peptide with an increased synthesis of cGMP. NP-responsive cGMP-producing structures were observed in laminae I-III, and X, and in addition in ependymal cells, astrocytes and a subpopulation of dorsal root ganglion cells. As the cGMP concentration is controlled by the rate of synthesis and the rate of breakdown by phosphodiesterases, we studied NP-responsive structures in spinal cord slices incubated in the presence of different phosphodiesterase inhibitors. We studied EHNA and BAY 60-7550 as selective PDE2 inhibitors, sildenafil as a selective PDE5 inhibitors, dipyridamole as a mixed type PDE5 and PDE10 inhibitor, rolipram as a PDE4 inhibitor, and SCH 81566 as a selective PDE9 inhibitor. Double immunostainings showed that cGMP-IR colocalized partial with the vesicular acetylcholine transporter molecule in lamina X, with Substance P in a subpopulation of neuronal fibers situated dorsolateral, and with a subpopulation of CGRP-IR dorsal root ganglion neurons. Colocalization of cGMP-IR was absent with parvalbumin, synaptophysin, and the vesicular transporter molecules for GABA and glutamate. It is concluded that NPs in the spinal cord are probably involved in integrating intersegmental sensory processing in the spinal cord although the greater part of the NP-responsive cGMP-producing fibers could not be characterized. PDE2, 5, and 9 are involved in regulating NP-stimulated cGMP levels in the spinal cord. NPs may have a role in regulating cerebrospinal fluid homeostasis.
Journal of Chemical Neuroanatomy 07/2006; 31(4):263-74. · 2.43 Impact Factor
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ABSTRACT: NO-responsive, cGMP-producing structures are abundantly present in the cervical spinal cord. NO-mediated cGMP synthesis has been implicated in nociceptive signaling and it has been demonstrated that cGMP has a role establishing synaptic connections in the spinal cord during development. As cGMP levels are controlled by the activity of soluble guanylyl cyclase (synthesis) and the phosphodiesterase (PDE) activity (breakdown), we studied the influence of PDE activity on NO-stimulated cGMP levels in the rat cervical spinal cord. cGMP-immunoreactivity (cGMP-IR) was localized in sections prepared from slices incubated in vitro. A number of reported PDE isoform-selective PDE inhibitors was studied in combination with diethylamineNONOate (DEANO) as a NO-donor including isobutyl-methylxanthine (IBMX) as a non-selective PDE inhibitor. We studied 8-methoxy-IBMX as a selective PDE1 inhibitor, erythro-9-(2-hydroxy-3-nonyl)adenine (EHNA) and BAY 60-7550 as selective PDE2 inhibitors, sildenafil as a selective PDE5 inhibitor, dipyridamole as a mixed type PDE5 and PDE10 inhibitor, rolipram as a PDE4 inhibitor, and SCH 81566 as a selective PDE9 inhibitor. cGMP-IR structures (nerve fibers, axons, and terminals) were characterized using the following neurochemical markers: vesicular transporter molecules for acetylcholine, GABA, and glutamate (type 1 and type 2), parvalbumin, glutamate transporter molecule EAAT3, synaptophysin, substance P, calcitonin gene-related peptide, and isolectin B4. Most intense cGMP-IR was observed in the dorsal lamina. Ventral motor neurons were devoid of cGMP-IR. cGMP-IR was observed in GABAergic, and glutamatergic terminals in all gray matter laminae. cGMP-IR was abundantly colocalized with anti-vesicular glutamate transporter 2 (vGLUT2), however not with the anti-vesicular glutamate transporter 1 (vGLUT1), suggesting a functional difference between structures expressing vGLUT1 or vGLUT2. cGMP-IR did not colocalize with substance P- or calcitonin-gene related peptide-IR structures, however did partially colocalize with isolectin B4 in the dorsal horn. cGMP-IR in cholinergic structures was observed in dorsal root fibers entering the spinal cord, occasionally in laminae 1-3, in laminae 8 and 9 in isolated boutons and in the C-type terminals, and in small cells and varicosities in lamina 10. This latter observation suggests that the proprioceptive interneurons arising in lamina 10 are also NO-responsive. No region-specific nor a constant co-expression of cGMP-IR with various neuronal markers was observed after incubation of the slices with one of the selected PDE inhibitors. Expression of the mRNA of PDE2, 5, and 9 was observed in all lamina. The ventral motor neurons and the ependymal cells lining the central canal expressed all three PDE isoforms. Incubation of the slices in the presence of IBMX, DEANO in combination with BAY 41-2272, a NO-independent activator of soluble guanylyl cyclase, provided evidence for endogenous NO synthesis in the slice preparations and enhanced cGMP-IR in all lamina. Under these conditions cGMP-IR colocalized with substance P in a subpopulation of substance P-IR fibers. It is concluded that NO functions as a retrograde neurotransmitter in the spinal cord but that also postsynaptic structures are NO-responsive by producing cGMP. cGMP-IR in a subpopulation of isolectin B4 positive fibers and boutons is indicative for a role of NO-cGMP signaling in nociceptive processing. cGMP levels in the spinal cord are controlled by the concerted action of a number of PDE isoforms, which can be present in the same cell.
Journal of Chemical Neuroanatomy 07/2006; 31(4):275-303. · 2.43 Impact Factor
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ABSTRACT: We have examined structures that may operate by using nitric oxide (NO)/soluble guanylyl cyclase (sGC) signalling in the lamina propria of the guinea pig bladder. Cells on the luminal surface of the urothelium and sub-urothelial interstitial cells (SU-ICs) responded to NO with a rise in cGMP. The distribution of these different cells varied between the base, lateral wall and dome. In the base, two regions were identified: areas with sparse surface urothelial cells and areas with a complete covering. A layer of cGMP-positive (cGMP+) cells (up to 10 cells deep) was found in the base. cGMP+/SU-ICs were also observed in the lateral wall. However, here, the cGMP+ cells were confined to a layer of only 1–2 cells immediately below the basal urothelial layer (basal cGMP+/SU-ICs). Below these cGMP+/SU-ICs lay cells that had a similar structure but that showed little cGMP accumulation (deep cGMP–/SU-ICs). Both basal and deep SU-ICs expressed the β1 subunit of sGC and the cGMP-dependent protein kinaseI (cGKI), suggesting that the deep SU-ICs can sense NO and signal via cGMP. By using BAY 41-2272, a sensor of endogenous NO production, NO-dependent cGMP synthesis was observed primarily in the basal SU-ICs. A third population of cGKI+/cGMP− cells was seen to lie immediately below the basal urothelial layer. These cells (“necklace” cells) were less numerous than SU-ICs and extended linking processes suggesting a network. The specific functions of these structures are not known but they may contribute to the emerging multiple roles of the urothelium associated with the generation of bladder sensation.
Cell and Tissue Research 01/2006; 325(2):325-332. · 3.11 Impact Factor
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ABSTRACT: Previous studies have shown memory enhancing effects of phosphodiesterase type 5 (PDE5) inhibitors in rats. However, differences in nitric oxide (NO)-mediated cyclic GMP (cGMP) signaling in the hippocampus have been described between rats and mice. In the present study we investigated the memory enhancing effects of the PDE5 inhibitor, sildenafil on memory performance in Swiss mice using the object recognition task. Sildenafil (0.3, 1 and 3 mg/kg) was administered orally directly after the first trial. The memory for the objects was retested 24 h later when mice show no memory for the familiar object. Sildenafil improved the object discrimination performance of Swiss mice at a dose of 1 mg/kg. Hippocampal slices of Swiss mice incubated with sildenafil (10 microM) increased cGMP levels in varicosities in the CA3 region of the hippocampus and a number of short, thin fibers. Addition of DEA/NO, an NO donor (10 microM), in the presence of sildenafil (10 microM) strongly increased cGMP immunoreactivity of varicosities in the CA3 region. Double immunostaining of cGMP with the presynaptic marker synaptophysin did not reveal any co-localization of these markers under any circumstance. Taken together, inhibition of PDE5 improves object recognition memory in mice. Furthermore, a postsynaptic role of cGMP could be involved in this respect.
Behavioural Brain Research 11/2005; 164(1):11-6. · 3.42 Impact Factor
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ABSTRACT: The urothelium plays a sensory role responding to deformation of the bladder wall; this involves the release of adenosine trisphosphate (ATP) and nitric oxide (NO), which affect afferent nerve discharge and bladder sensation. The urothelial cells responsible for producing ATP and NO and the cellular targets, other than afferent nerves, for ATP and NO remain largely unexplored. Sub-urothelial interstitial cells (SU-ICs) lie immediately below the urothelium and respond to NO with a rise in cGMP. To determine which cells might target SU-ICs by producing NO, areas of dome, lateral wall and base wall were treated with isobutyl-methyl-xanthine, exposed to the NO donor diethylamino NONOate and then fixed for immunohistochemistry. Surface urothelial cells (SUCs) in the base and dome expressed neuronal nitric oxide synthase (nNOS), whereas those in the lateral wall did not. Distinct populations of SUCs were present in the bladder base. SUCs with significant amounts of nNOS lay adjacent to cells with low levels of nNOS. In specific base regions, the few SUCs present contained nNOS within discrete intracellular particles. In the basal urothelial cell (BUC) layer of the lateral wall, nNOS-positive (NOS(+)) BUCs neither showed an elevation in cGMP in response to NO, nor expressed the beta1 sub-unit of soluble guanylate cyclase, protein kinase I or protein kinase II. Thus, they produced but did not respond to NO. The BUC layer also stained for the stem cell factor c-Kit suggesting its involvement in urothelial cell development. No NOS(+) BUCs were present in the SUC-sparse region in the bladder base. Exogenous NO produced an elevation in cGMP in SUCs and SU-ICs. The distribution and proportion of these target cells varied between the dome, lateral wall and base. cGMP(+) SU-ICs were present as a dense layer in the bladder base but were rarely seen in the lateral wall, which contained nNOS(+) BUCs. No nNOS(+) BUCs and cGMP(+) SU-ICs were apparent in the dome. The degree of complexity in nNOS distribution and NO target cells is therefore greater than has previously been described and may reflect distinct physiological functions that have yet to be identified.
Cell and Tissue Research 10/2005; 321(3):341-51. · 3.11 Impact Factor
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ABSTRACT: cGMP synthesis in cholinergic neurons of the basal forebrain, the caudate putamen, and the tegmento-pedunculopontine nucleus of the rat was studied during development after birth at P1, P4, P10, and P21, in the adult, and during aging. NO-mediated cGMP synthesis in these neurons was studied using the approach of in vitro incubation of brain slices in combination with cGMP-immunocytochemistry. The percentage of NO-responsive, cGMP-synthesizing cholinergic cells in the septum and diagonal band of Broca decreased from 75% to 6% in adult animals and to 2% in aged ones. In the caudate putamen, this decrease was from 81% to 21% in adult and 11% in aged animals. Cholinergic cells of the tegmento-pedunculopontine nucleus were unresponsive to NO and never showed cGMP-immunoreactivity. In addition, it was observed that the amount of NO-responsive, cGMP-synthesizing cholinergic fibers in the hippocampus declined in parallel with the maturation of the septal-hippocampal cholinergic pathway, whereas in the caudate putamen, this colocalization became complete 2 weeks after birth. It is concluded that the property of NO-mediated cGMP synthesis in the cholinergic nuclei of the forebrain is developmentally regulated after birth and that NO-cGMP signal transduction has a role in establishing cholinergic neuronal connections in the hippocampus and caudate putamen.
Developmental Brain Research 09/2005; 158(1-2):72-81. · 1.78 Impact Factor
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ABSTRACT: The effect of diazepam on NO-mediated cGMP synthesis was studied in rat brain slices. It was found that diazepam dose-dependently decreased cGMP synthesis in cerebellar slices, with an inhibition of 90% at 1 mM diazepam. cGMP levels in the presence of diazepam were not restored to control levels by the addition of 0.1 mM sodium nitroprusside, whereas the decrease in cerebellar cGMP levels induced by 0.1 mM L-NAME was restored by the simultaneous application of NO-donors. In addition to the decrease of cGMP levels in neuronal structures induced by 1 mM diazepam, we observed increased cGMP immunoreactivity in glial cells in the cerebellum, the hippocampus, and the cerebral cortex. The significance of this observation is discussed.
Neurochemical Research 10/2004; 29(9):1725-9. · 2.24 Impact Factor
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Neurochem Int. 01/2004; 45:915-28.
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C E Teunissen,
D Lütjohann,
K von Bergmann,
F Verhey,
F Vreeling,
A Wauters,
E Bosmans,
H Bosma,
M P J van Boxtel,
M Maes,
J Delanghe,
H J Blom,
M M Verbeek,
P Rieckmann,
C De Bruijn,
H W M Steinbusch, J de Vente
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ABSTRACT: Alzheimer's disease (AD) probably involves several pathobiochemical mechanisms and this may be reflected by changes in different serum components. The present study investigated whether the combined analysis of serum molecules related to different mechanisms improves the discrimination of AD patients from healthy controls. Serum of patients with AD was analyzed for a broad spectrum of marker molecules, including 11 inflammatory proteins, 12 sterol intermediates and phytosterols, 2 brain-specific proteins and 4 constituents involved in homocysteine homeostasis. The serum molecule concentrations were combined in a logistic regression model, using a forward stepwise inclusion mode. The results showed that the combination of interleukin-6 (IL-6) receptor, protein alpha1 fraction, cysteine and cholesterol concentrations improved the discrimination between AD patients and healthy controls compared to the single markers. In conclusion, the results of this study have shown that the complex pathology in AD is reflected in a pattern of altered serum concentrations of several marker molecules related to several pathobiochemical mechanisms.
Neurobiology of Aging 12/2003; 24(7):893-902. · 6.19 Impact Factor
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ABSTRACT: Cyclic guanosine monophosphate (cGMP) is produced in different retinal cells, including photoreceptor cells, wherein cGMP mediates photo-transduction. CGMP is degraded by phosphodiesterases (PDE). The aim was to investigate whether retinal detachment alters intraocular cGMP levels in human eyes.
cGMP and PDE were determined in vitreous fluid from 50 eyes with a retinal detachment (group I) and in 20 control samples (group II) of vitreous fluid from eyes without retinal detachment. Group III consisted of subretinal fluid samples from 70 eyes with retinal detachment.
cGMP in vitreous fluid from eyes with retinal detachment (6.5 (SD 1.7) nM) was decreased compared to controls (67.1 (10.0) nM) (p<0.0001). In subretinal fluid, the mean level of cGMP was 2.4 (0.2) nM. No PDE could be detected in any of the intraocular fluid samples of patients nor controls. A decrease in the mean level of cGMP in subretinal fluid of eyes with retinal detachment correlated with a longer duration of detachment (r = -0.45, p = 0.007).
Retinal detachment was found to be associated with a decrease in vitreous cGMP concentration. In subretinal fluid, a low cGMP level correlated inversely with the duration of the detachment.
British Journal of Ophthalmology 11/2003; 87(11):1409-12. · 2.90 Impact Factor
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C E Teunissen,
M P J van Boxtel,
H Bosma,
J Jolles,
D Lütjohann,
K von Bergmann,
A Wauters,
E Bosmans,
M Maes,
J Delanghe,
C De Bruijn,
H W M Steinbusch,
H J Blom, J de Vente
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ABSTRACT: Little is known of the biochemical processes of cognitive decline during 'healthy' aging. Biological markers in body fluids, such as blood, could provide insight in those processes. In the present studies serum concentrations of different markers have been correlated to cognitive functioning of cognitively healthy aging individuals over a period of six years (mean age 57 years, SD 11, n = 93). Markers were related to mechanisms known to be involved in Alzheimer's disease, including inflammation, cholesterol homeostasis and homocysteine homeostasis. Domains of cognitive function addressed were cognitive speed (Letter-Digit Coding test), attention and information processing (Stroop test), and memory (Word Learning test: Total Words and Delayed Recall). Baseline concentrations of haptoglobine, homocysteine, lathosterol and lanosterol were negatively correlated with cognitive functioning on the Stroop test over the whole follow-up period of six years. Concentrations of all markers, i.e. haptoglobine, C-reactive protein, homocysteine, lathosterol and lanosterol, were also negatively correlated with functioning on the Word Learning test (Delayed Recall and for some markers also with the Total Words) over the whole six-years follow-up period. In conclusion, concentrations of serum markers related to inflammation, homocysteine and cholesterol homeostasis are not only associated with Alzheimer's disease, but also with cognitive functioning in the cognitively healthy aging population.
Tijdschrift voor gerontologie en geriatrie 03/2003; 34(1):6-12.
